This paper introduces a neural-dynamics-based active steering control (NDASC) scheme developed under artificial systems, computational experiments, and parallel execution (ACP) framework, aimed at enhancing the stability and reliability of autonomous vehicles in noisy environments. Based on the Taylor expansion theorem, noises can be represented in the form of polynomials for the desired accuracy, and therefore polynomial noises can be viewed as a more generalized representation of noises. Then, the proposed NDASC scheme includes a model predictive active steering control (MPASC) strategy solved by a polynomial noise resilience neural dynamics (PNRND) model. Computational experiments parallelly implemented upon the CarSim-Simulink platform substantiate the effectiveness and robustness of the proposed NDASC scheme, providing significant theoretical and practical insights for control strategies of autonomous vehicles under various noisy environments.


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    Title :

    Neural-Dynamics-Based Active Steering Control for Autonomous Vehicles with Noises


    Contributors:
    Liufu, Ying (author) / Jin, Long (author) / Wang, Fei-Yue (author)


    Publication date :

    2024-06-02


    Size :

    3271046 byte





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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